AQ3A2JZT432J

Please contact us about TÜV certified products. Certified Certified Certified Certified AQ10A2-ZT4/32VDC, Certified AQ3A2-ZT4/32VDC, AQ1AD2-3/28VDC and AQ2AD1-3/28VDC AQ1AD2-3/28VDC and AQ2AD1-3/28VDC AQ3A2-ZT4/32VDC,and AQ3A2-J-ZT4/32VDC AQ1AD2-3/28VDC and AQ2AD1-3/28VDC **VDE** AQ3A2-J-ZT4/32VDC and AQ10A2-ZT4/32VDC AQ1 @ Ais LN 

## **High capacity up to 10A PCB terminal type** 

## AQ1 RELAYS 

## **FEATURES** 

## **1. 10A high-capacity realized for PC board terminal (with heat sink)** 

SSR for compact PC boards with 10 A capacity that is two times greater than our previous model. It is suitable for longlife, highly frequent control. 

## **2. VDE (EN60950-1) reinforced insulation compliant** 

Fully satisfies demand for safety by guaranteeing compliance with EN60950-1 safety standard and featuring 3,000 V reinforced insulation (AQ3A2ZT4/32VDC, AQ3A2-J-ZT4/32VDC and AQ10A2-ZT4/32VDC). 

mm inch 

10 1.29933 .394 **3. Superior anti-vibration and antishock characteristics** —=_ 26 The body is molded as a single unit with 1.024 flame resistant resin which makes it highly resistant against vibration and shock, and gives it superior protection S ~~s~~ from environment. The body can also be 1.29933 .98425 washed. **4. Vertical types with SIL terminal** 12 .472 **arrangement and flat types are available.** 1) The vertical type is available in thicknesses of 10 mm (2 A and 3 A types) ~~e~~ 

1) The vertical type is available in thicknesses of 10 mm (2 A and 3 A types) and 12 mm (10 A types). Terminal arrangement is SIL in integral multiples of 2.54 mm (0.1 inch). 

## **5. Reduced noise generation** 

The load will operate at close to zero voltage even when the input signal is applied during a cycle. Also, even if an input signal is cancelled during a cycle, the load is cut off at close to zero current. For this reason, hardly any noise is produced and radio frequency interference (RFI) and electromagnetic interference (EMI) are kept to a minimum. **6. Built-in Snubber circuit prevents malfunction.** 

## **TYPICAL APPLICATIONS** 

- Printing machines 

- Packing machines 

- Traffic signal control 

- Automatic ticket punchers 

- Terminal equipment of data processing 

- Computer peripherals 

- NC machines 

2) The height of the flat type is 12 mm. The terminal arrangement is DIL in integral multiples of 2.54 mm. 

## **ORDERING INFORMATION** 

**AQ** 

Load current 1 A, 2 A, 3 A, 10 A Load voltage 2: 75 to 250 V AC D1: 3 to 60 V DC D2: 10 to 200 V DC 

Shape Nil: Vertical type J: Flat type Nil: DC output ZT: Zero-cross AC output (Phototriac coupler) Input voltage 3/28 V DC: 3 to 28 V DC 4/32 V DC: 4 to 32 V DC 

* Random types are available upon request. 

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## **TYPES** 

## **1. AQ1 Solid State Relays** 

|Load|Isolation|Zero-cross<br>function|Type|Input<br>voltage|Load current<br>Load voltage|Part No.|
|---|---|---|---|---|---|---|
|AC|Phototriac coupler|Zero-cross*1|3 A (Vertical)|4 to 32 V DC|3 A, 75 to 250 V AC|AQ3A2-ZT4/32VDC|
||||3 A (flat)|4 to 32 V DC|3 A, 75 to 250 V AC|AQ3A2-J-ZT4/32VDC|
||||10 A|4 to 32 V DC|10 A, 75 to 250 V AC|AQ10A2-ZT4/32VDC|
|DC|Optically<br>coupled isolation|–|1 A|3 to 28 V DC|1 A, 10 to 200 V DC|AQ1AD2-3/28VDC|
||||2 A|3 to 28 V DC|2 A, 3 to 60 V DC|AQ2AD1-3/28VDC|



Standard packing: Carton 20 pcs., Case 200 pcs. 

Note: *1 Non zero-cross type also available. Please inquire. 

## **2. Heat sink for AQ1 solid state relay** 

|**2. Heat sink for AQ1 solid state relay**||
|---|---|
|Product name|Part No.|
|Heat sink for AQ10A2-ZT4/32VDC|AQ-HS-5A|



Standard packing: Carton 20 pcs., Case 200 pcs. 

## **SPECIFICATIONS** 

## **1. Rating** (Ambient temperature: 20C 68F, Ripple factor: less than 1%) 

|Item|Type|AC output type|AC output type|DC output type|DC output type|Remarks|
|---|---|---|---|---|---|---|
|||Zero-cross|||||
|||3 A type|10 A type|1 A type|2 A type||
|Input<br>side|Input voltage|4 to 32 V DC||3 to 28 V DC||*1|
||Input impedance|—||Approx. 1.6 k|||
||Input current, max.|20 mA||—|||
||Drop-out voltage, min.|1.0 V||0.8 V|||
|Load<br>side|Max. load current*2|3 A|10 A*5|1 A|2 A|Refer to REFERENCE DATA<br>“1. Load current vs. ambient<br>temperature characteristics”.|
||Load voltage|75 to 250 V AC||10 to 200 V DC|3 to 60 V DC||
||Non-repetitive surge<br>current*3|100 A||5 A||AC: In one cycle at 60 Hz,<br>DC: 1s|
||Max. “OFF-state” leakage<br>current|5 mA||1 mA||AC: at 200 V, 60Hz<br>DC: When maximum load<br>voltage is applied.|
||Max. “ON-state” voltage<br>drop|1.6 V||1.6 V|2.3 V|At Max. carrying current|
||Min. load current*4|50 mA||5 mA|||



Notes: 

- *1. Refer to REFERENCE DATA “3. Input current vs. input voltage characteristics”. 

- *2. Refer to REFERENCE DATA “1. Load current vs. ambient temperature”. 

- *3. Refer to REFERENCE DATA “2. Non-repetitive surge current vs. carrying time”. 

- *4. When load current is below the rating, refer to “Cautions for Use” on page 341. 

- *5. When heat sink (AQ-HS-5A) is installed. The max. load current is 5 A when heat sink is not installed. 

## **2. Characteristics** (at 20C 68F, Ripple factor: less than 1%) 

|Type<br>Item|Type<br>Item|AC output<br>Zero-cross<br>3 A type<br>10 A type|AC output<br>Zero-cross<br>3 A type<br>10 A type|DC output|Remarks|
|---|---|---|---|---|---|
||||10 A type|||
|Operate time, Max.||(1/2 cycle of voltage sine wave) + 1 ms||0.5 ms||
|Release time, Max.||(1/2 cycle of voltage sine wave) + 1 ms||2 ms||
|Insulation resistance, Min.||100 Mfor input, output and case||100 Mfor input, output|at 500 V DC|
|Breakdown voltage||4,000 Vrms between input and output<br>2,500 Vrms among input, output and case||3,000 Vrms<br>between input-output|For 1 minute|
|Vibration resis-<br>tance|Destructive|117.6 m/s2{12G}, 10 to 55 Hz at double<br>amplitude of 2 mm||117.6 m/s2{12G},<br>10 to 55 Hz at double<br>amplitude of 2 mm|1 hour for<br>X, Y, Z axis|
||Functional|117.6 m/s2{12G}, 10 to 55 Hz at double<br>amplitude of 2 mm||117.6 m/s2{12G},<br>10 to 55 Hz at double<br>amplitude of 2 mm|10 minutes for<br>X, Y, Z axis|
|Shock resis-<br>tance|Destructive|Min. 980 m/s2{100 G}||Min. 980 m/s2{100 G}|5 times each for X, Y, Z axis|
||Functional|Min. 980 m/s2{100 G}||Min. 980 m/s2{100 G}|4 times each for X, Y, Z axis|
|Ambient temperature||–30C to +80C–22F to +176F||||
|Storage temperature||–30C to +100C–22F to +212F||||
|Operational method||Zero-cross (Turn-ON and Turn-OFF)||—||



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## **REFERENCE DATA** 

## 1-(1) Load current vs. ambient temperature 

## 1.-(2) Load current vs. ambient temperature 

## 1.-(3) Load current vs. ambient temperature 

(AC output, 3 A type) Part No.: AQ3A2-ZT4/32VDC and AQ3A2-J-ZT4/32VDC 

(AC output, 10 A type) Part No.: AQ10A2-ZT4/32VDC 

(DC output, 1 A and 2 A types) Part No.: AQ1AD2-3/ 28VDC and AQ2AD1-3/28VDC 

(A) When not using a heat sink 

(B) When using a standard heat sink AQ-HS-5A (When attached to a heat sink, use a heat conductive compound (Ex. Toshiba silicone YG6111 or TSK5303) of similar coating to improve cooling.) 

Allowable ambient temperature: –30C to +80C –22F to +176F 

Allowable ambient temperature: 

–30C to +80C –22F to +176F 

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5 10 2.5<br>4 8 (B) 2.0 2A type<br>3 6 1.5<br>(A)<br>2 4 1.0 1A type<br>1 2 0.5<br>0 0<br>-30 0 20 40 60 80 100 0-30 0 20 40 60 80 100 -30 0 20 40 60 80<br>Ambient temperature, °C Ambient temperature, °C Ambient temperature, °C<br>2-(1) Non-repetitive surge current vs.  2.-(2) Non-repetitive surge current vs.  3-(1) Input current vs. input voltage<br>carrying time carrying time characteristics<br>(AC output, 3 A and 10 A types)  (DC output) Part No.: AQ1AD2-3/28VDC and  (AC output, 3 A and 10 A types)<br>Part No.: AQ3A2-ZT4/32VDC, AQ3A2-J-ZT4/32VDC  AQ2AD1-3/28VDC Part No.: AQ3A2-ZT4/32VDC, AQ3A2-J-ZT4/32VDC<br>and AQ10A2-ZT4/32VDC and AQ10A2-ZT4/32VDC<br>125 25<br>22<br>20<br>100 20<br>18<br>16<br>75 14 15<br>12<br>50 10 10<br>8<br>6<br>25 4 5<br>2<br>011 10 100 011 50 100 500 1,000 000 5 10 15 20 25 30 35<br>No. of cycles at 60 Hz Carrying time, ms<br>Load current, A Load current, A Load current, A<br>Input current, mA<br>Non-repetitive surge current, A Non-repetitive surge current, A<br>**----- End of picture text -----**<br>


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125 25<br>22<br>20<br>100 20<br>18<br>16<br>75 14 15<br>12<br>50 10 10<br>8<br>6<br>25 4 5<br>2<br>011 10 100 011 50 100 500 1,000 000 5 10 15 20 25 30 35<br>No. of cycles at 60 Hz Carrying time, ms Input voltage, V<br>3.-(2) Input current vs. input voltage  4.-(1) Load current vs. ambient temperature  4.-(2) Load current vs. ambient temperature<br>characteristics characteristics for adjacent mounting characteristics for adjacent mounting<br>(DC output)  (AC output, 3A vertical type)  (AC output, 10A type)<br>Part No.: AQ1AD2-3/28VDC and AQ2AD1-3/28VDC Part No.: AQ3A2-ZT4/32VDC Part No.: AQ10A2-ZT4/32VDC (without heat sink)<br>5 6<br>28<br>26<br>24 5<br>22 4 =20.32mm<br>.800inch<br>2018 =15.24mm.600inch 4<br>3<br>16<br>14 3<br>12<br>2<br>10 2<br>8<br>6 = Adjacent mounting pitch<br>4 1 1<br>2<br>= Adjacent mounting pitch<br>0 4 8 12 16 20 24 2830 0-30 -20 0 20 40 60 80 100 0-30 -20 0 20 40 60 80 100<br>Input voltage, V Ambient temperature, °C Ambient temperature, °C<br>Input current, mA<br>Non-repetitive surge current, A Non-repetitive surge current, A<br>Input current, mA Load current, A Load current, A<br>**----- End of picture text -----**<br>


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## **DIMENSIONS** (mm inch)inch)) 

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(mm inch)inch)) Download  CAD DataCAD Data from our Web site.<br>1. AC output, 3A types (Vertical)<br>CAD Data Mounting hole location<br>33<br>1.299 (Copper-side view)<br>.39410 1.00025.4 Copper foil<br>1 2 3 4<br>4-1.2 dia.<br>4-.047 dia.<br>2.54×3 2.54×5<br>.100×3 .100×5 2.54×2<br>25 .100×2<br>OUTPUT INPUT .984<br>° 1 2 3 4 HE Schematic  HK<br>1<br>6 .039<br>.236<br>SSR<br>7.62 12.7 5.08 LOAD INPUT<br>.300 .500 .200 1 2 3 4<br>(25.4)<br>(1.000)<br>+ -<br>Load<br>4-0.8 dia.4-.031 dia. .2095.3 Loadpower source Inputpower source<br>a<br>General tolerance: 0.5 .020 Tolerance: 0.1 .004<br>2. AC output, 3A types (Flat)<br>CAD Data Mounting hole location<br>(Copper-side view)<br>1.29933 Copper foil 1.00025.4 4-.047 dia.4-1.2 dia.<br>2<br>3<br>25<br>.984<br>10.16 12.7<br>o .400 : .500<br>4<br>11<br>.433 1<br>6<br>.236<br>4-0.8 dia.4-.031 dia. .0391 Schematic<br>Load Input<br>hee 1.00025.4 ee at power source power source+ -<br>3 + 2<br>10.16 INPUT OUTPUT 12.7 2 3<br>.400 .500<br>4 - 1 SSR LOAD INPUT<br>° 1 4<br>General tolerance: 0.5 .020<br>Tolerance: 0.1 .004<br>3. AC output, 10A types<br>CAD Data Mounting hole location (Copper-side view)<br>54 1.00025.4 4-.047 dia.4-1.2 dia.<br>2.126<br>39 1 2 3 4<br>1.535<br>4 3 3 Copper foil<br>.157 1.299 2.54×3 2.54×5 9.1<br>.100×3 .100×5 2.54×2 .358<br>.100×2<br>25<br>.984 LOAD INPUT 2-3.5 dia.*<br>1 2 + 34 - 20 20 2-.138 dia.<br>1 .787 .787<br>.039<br>15 max. * There 2 holes are not necessary when not using heat sink (AQ-HS-5A)<br>.591 |<br>0.8 7.62 Schematic<br>.031 .300<br>am gee 7.62 12.7 5.08<br>.300 .500 .200<br>.0240.6 SSR LOAD INPUT<br>1 2 3 4<br>12 max. 6.9<br>.472 .272<br>.0792 .0792 2.079 + -<br>a 8.8910.16 = Load<br>.350 .400 Load Input<br>power source power source<br>General tolerance: 0.5 .020 Tolerance: 0.1 .004<br>Load<br>**----- End of picture text -----**<br>


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4. Heat sink (for AQ10A2-ZT4/32VDC) mm inchinch<br>CAD Data<br>58±2<br>2-M3 Screw 2.283±.079<br>13.8<br>.543<br>27±2<br>1.063±.079<br>5.2<br>.205 47.6<br>1.874<br>2.5 40 9<br>.098 1.575 .354<br>30±2<br>1.181±.079<br>2-M3 Screw depth: min. 10mm | | 4<br>8 8 8 8 8 8 8<br>“Te n<br>ih Knurl surface .315.315.315.315.315.315.315 Heat sink attached to AQ1 relay<br> General tolerance: 0.5 .020<br>Note: When using heat sink, please refer to “Thermal Design”<br>5. DC output, 1A and 2A types<br>; CAD Data Mounting hole location<br>- 33 (Copper-side view)<br>1.299<br>10 1.00025.4 Copper foil<br>.394 1 2 3 4<br>4-1.2 dia.<br>4-.047 dia.<br>_ 2.54.100××33 2.54.100××55 2.54×2<br>.100×2<br>-<br>25<br>OUTPUT INPUT .984 Schematic<br>1 2 3 4<br>1<br>6 .039<br>.236<br>SSR<br>LOAD INPUT<br>7.62 12.7 5.08 1 2 3 4<br>.300 .500 .200<br>(25.4)<br>(1.000) + - + -<br>Load<br>ee<br>4-0.8 dia.4-.031 dia. .2095.3 Loadpower source Inputpower source<br>General tolerance: 0.5 .020 Tolerance: 0.1 .004<br>**----- End of picture text -----**<br>


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## **CAUTIONS FOR USE** 

**1. When using bent output terminals 2. When a heat sink is mounted on the** To avoid applying mechanical stress on **10 A type** the main unit and molded section of the The heat sink (AQ-HS-5A) or a radiator solid state relay, radio pliers should be which can make good contact should be used to grasp the terminals between the used. point of bending and the molded case If a heat sink is used in which the contact when making the bends. condition is bad, a heat conducting 

If a heat sink is used in which the contact condition is bad, a heat conducting compound should be used to improve the heat radiation. (Ex. Silicon compound Toshiba silicon YG6111 or TSK5303) The compound should be applied between the heat sink and the AQ1. 

Solid state relay 

Terminal bend section Toshiba silicon YG6111 or TSK5303) The Printed circuit board compound should be applied between the heat sink and the AQ1. ~~mane~~ Solder AQ-HS-5A heat sink 10 A type AQ1 SSR Printed circuit board 4-M3 screws (provided with AQ-HS-5A) a Approx. 0.6N·m of torque should be used for tightening the M3 screws. 3 3 

## **Cautions for Use** 

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